Publications

Found 135 results
Author Title Type [ Year(Asc)]
Filters: First Letter Of Last Name is H  [Clear All Filters]
2015
He, J. et al. Fermi Arcs vs. Fermi Pockets in Electron-doped Perovskite Iridates. SCIENTIFIC REPORTS 5, 8533 (2015).
He, J. et al. Fermi Arcs vs. Fermi Pockets in Electron-doped Perovskite Iridates. SCIENTIFIC REPORTS 5, 8533 (2015).
He, J. et al. Fermi Arcs vs. Fermi Pockets in Electron-doped Perovskite Iridates. SCIENTIFIC REPORTS 5, 8533 (2015).
He, J. et al. Fermi Arcs vs. Fermi Pockets in Electron-doped Perovskite Iridates. SCIENTIFIC REPORTS 5, 8533 (2015).
He, J. et al. Fermi Arcs vs. Fermi Pockets in Electron-doped Perovskite Iridates. SCIENTIFIC REPORTS 5, 8533 (2015).
Hogan, T. et al. First-Order Melting of a Weak Spin-Orbit Mott Insulator into a Correlated Metal. PHYSICAL REVIEW LETTERS 114, 257203 (2015).
Hogan, T. et al. First-Order Melting of a Weak Spin-Orbit Mott Insulator into a Correlated Metal. PHYSICAL REVIEW LETTERS 114, 257203 (2015).
Chen, X. et al. Influence of electron doping on the ground state of (Sr1-xLax)(2)IrO4. PHYSICAL REVIEW B 92, 075125 (2015).
He, J. et al. Spectroscopic evidence for negative electronic compressibility in a quasi-three-dimensional spin-orbit correlated metal. NATURE MATERIALS 14, 577-U54 (2015).
He, J. et al. Spectroscopic evidence for negative electronic compressibility in a quasi-three-dimensional spin-orbit correlated metal. NATURE MATERIALS 14, 577-U54 (2015).
He, J. et al. Spectroscopic evidence for negative electronic compressibility in a quasi-three-dimensional spin-orbit correlated metal. NATURE MATERIALS 14, 577-U54 (2015).
He, J. et al. Spectroscopic evidence for negative electronic compressibility in a quasi-three-dimensional spin-orbit correlated metal. NATURE MATERIALS 14, 577-U54 (2015).
He, J. et al. Spectroscopic evidence for negative electronic compressibility in a quasi-three-dimensional spin-orbit correlated metal. NATURE MATERIALS 14, 577-U54 (2015).
He, J. et al. Spectroscopic evidence for negative electronic compressibility in a quasi-three-dimensional spin-orbit correlated metal. NATURE MATERIALS 14, 577-U54 (2015).

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